Lithium Secondary Battery and Secondary Battery Sub Module Comprising the Same

ABSTRACT

The present invention provides a lithium secondary battery and a lithium secondary battery sub module including the same. The lithium secondary battery includes: an electrode assembly; a plastic case which houses the electrode assembly and includes a gas barrier layer; and a pouch film cover which seals the plastic case having the electrode assembly housed therein, such that it is possible to achieve a battery having a significantly increased thickness so as to increase the capacity thereof without structural limitation, secure durability of the battery due to having excellent resistance to permeability, and improve productivity due to a decrease in an occurrence of poor insulation. Thereby, the lithium secondary battery sub module including the lithium secondary battery may have a high energy density and may be formed in a compact shape with reduced manufacturing costs.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to Korean Patent Application No.10-2015-0078723 filed Jun. 3, 2015, the disclosure of which is herebyincorporated in its entirety by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a lithium secondary battery and asecondary battery sub module including the same.

2. Description of the Related Art

Recently, a lithium secondary battery, which is rechargeable andlightweight and has high energy and power densities, has been widelyused as an energy source for wireless mobile devices. Further, asalternative plans to solve problems of air pollution and greenhousehouse with the existing internal combustion engine vehicles using fossilfuels such as a gasoline vehicle and a diesel vehicle, a hybrid electricvehicle (HEV), a plug-in hybrid electric vehicle (PHEV), a batteryelectric vehicle (BEV), or the like have been proposed. The lithiumsecondary battery has been drawn as a power source for the alternativevehicles to the internal combustion engine vehicles.

The lithium secondary battery is classified into a lithium ion batteryusing a liquid electrolyte and a lithium polymer battery using a polymerelectrolyte depending on a type of electrolytic solutions, and isclassified into cylindrical, prismatic, and a pouch types depending on atypes of an exterior material in which an electrode assembly is housed.

Among these, since the pouch type lithium secondary battery has anappearance that is made of a metal layer (foil) and a pouch film formedof multi-layers of a synthetic resin layer coated on upper and lowersurfaces of the metal layer, the weight of the pouch type lithiumsecondary battery may be remarkably reduced than that of the cylindricallithium secondary battery or the prismatic lithium secondary batteryusing a metallic can, such that the pouch type lithium secondary batterymay be lightweight and may be changed to have various types.

However, since there is a limitation on a forming depth of the pouchfilm in a structural aspect thereof, in order to achieve the secondarybattery having a thickness of 6 mm or more, the formed pouch should beadhered by folding.

Korean Patent Laid-Open Publication No. 10-2013-0089614 discloses anexterior material forming composition for a secondary battery whichincludes carbon fibers, ceramics and a solvent, and an exterior materialformed by including the same, however, did not suggest an alternativeidea to solve the above-described problems.

SUMMARY OF THE INVENTION

Accordingly, it is an object of the present invention to provide alithium secondary battery which may achieve a high-capacity withoutlimitation on a battery thickness to have a high energy density.

In addition, another object of the present invention is to provide alithium secondary battery having excellent resistance to permeabilityand long-term durability.

Further, another object of the present invention is to provide a lithiumsecondary battery sub module having a high energy density with a compactshape, and reduced manufacturing costs.

In order to accomplish the above objects, according to an aspect of thepresent invention, there is provided a lithium secondary batteryincluding: an electrode assembly; a plastic case which houses theelectrode assembly and includes a gas barrier layer; and a pouch filmcover which seals the plastic case having the electrode assembly housedtherein.

In an embodiment of the lithium secondary battery of the presentinvention, the plastic case may be made of at least one selected from agroup consisting of polyethylene, polypropylene, polyethyleneterephthalate and polyethylene naphthalate.

In an embodiment of the lithium secondary battery of the presentinvention, the plastic case may be injection mold.

In an embodiment of the lithium secondary battery of the presentinvention, the gas barrier layer may include at least one selected froma group consisting of ethylene-vinyl alcohol copolymer; polyvinylidenechloride; polyvinyl alcohol; nylon; polyamide; polyacrylonitrile, linearlow-density polyethylene, ethylene-vinyl alcohol copolymer, and ionomercopolymer; a metal film; a coating layer made of at least one selectedfrom a group consisting of silica, alumina, rubber, metal, glass andamorphous carbon; and a film having a coating layer in which layeredsilicate nano particles are dispersed in a polyvinyl alcohol binder.

In an embodiment of the lithium secondary battery of the presentinvention, the gas barrier layer may be formed on an inner surface ofthe plastic case.

In an embodiment of the lithium secondary battery of the presentinvention, the plastic case may be formed in a plurality of layers, andthe gas barrier layer is included in an inner layer of the plastic case.

In an embodiment of the lithium secondary battery of the presentinvention, the pouch film cover may be a stacked film including an innerresin layer, a metal thin film and an outer resin layer.

In an embodiment of the lithium secondary battery of the presentinvention, the inner resin layer contacting with the plastic case of thepouch film cover may be made of the same material as the plastic case.

According to an aspect of the present invention, there is provided alithium secondary battery sub module including: a heat radiation plate;and the lithium secondary batteries according to the present invention,which are respectively disposed on both side of the heat radiationplate, wherein the respective lithium secondary batteries are disposedso that the pouch film covers face the heat radiation plate.

The lithium secondary battery of the present invention may achieve abattery having a significantly increased thickness to increase thecapacity thereof without structural limitation, thereby having a higherenergy density than the conventional lithium secondary battery.

The lithium secondary battery of the present invention has excellentresistance to permeability, such that it is possible to securedurability of the battery.

The lithium secondary battery of the present invention is made without apouch forming process, such that it is possible to improve productivitydue to a decrease in an occurrence of poor insulation.

Further, the lithium secondary battery sub module of the presentinvention may have a high energy density and may be formed in a compactshape, thus having economic advantages due to the reduction ofmanufacturing costs.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and other advantages of thepresent invention will be more clearly understood from the followingdetailed description taken in conjunction with the accompanyingdrawings, in which:

FIG. 1 is a cross-sectional view schematically illustrating a structureof a conventional pouch type secondary battery;

FIG. 2 is a cross-sectional view schematically illustrating a structureof a lithium secondary battery according to an embodiment of the presentinvention; and

FIG. 3 is a cross-sectional view schematically illustrating a lithiumsecondary battery sub module according to an embodiment of the presentinvention.

DESCRIPTION OF THE INVENTION

The present invention discloses a lithium secondary battery including:an electrode assembly; a plastic case which houses the electrodeassembly and includes a gas barrier layer; and a pouch film cover whichseals the plastic case having the electrode assembly housed therein,such that it is possible to achieve a battery having a significantlyincreased thickness so as to increase the capacity thereof withoutstructural limitation, secure durability of the battery due to havingexcellent resistance to permeability, and improve productivity due to adecrease in an occurrence of poor insulation. Thereby, the lithiumsecondary battery sub module including the lithium secondary battery mayhave a high energy density and may be formed in a compact shape withreduced manufacturing costs.

FIG. 2 illustrates a lithium secondary battery according to anembodiment of the present invention, and FIG. 3 illustrates a lithiumsecondary battery sub module according to an embodiment of the presentinvention.

Hereinafter, preferred embodiments of the present invention will bedescribed in detail with reference to the accompanying drawings.However, since the drawings attached to the present disclosure are onlygiven for illustrating one of preferable various embodiments of presentinvention to easily understand the technical spirit of the presentinvention with the above-described invention, it should not be construedas limited to such a description illustrated in the drawings.

Lithium secondary Battery 40

Pouch Film Cover 10

The lithium secondary battery 40 of the present invention includes anelectrode assembly 30, a plastic case 20 in which the electrode assembly30 is contained, and a pouch film cover 10 which seals the plastic case20 having the electrode assembly 30 housed therein.

Materials for forming the pouch film cover 10 may be any materialgenerally used for the pouch film in the related art, and types thereofare not particularly limited within a range not departing from thepurpose of the present invention.

In particular, the pouch film cover 10 may be formed in a multi-layerstructure including, for example, an inner resin layer which plays arole of a sealing material due to having sequential thermaladhesiveness, and is made of polyethylene, polyolefin such asnon-stretched polypropylene or polypropylene, etc., or an adhesive layermade of a copolymer thereof; a metal thin film which plays a role of abase film for maintaining a mechanical strength and a barrier layeragainst moisture and oxygen; and an outer resin layer which functions toprotect battery cells from an external impact applied thereto, and is afunctional polymer layer such as polyethylene terephthalate andpolyethylene naphthalate, nylon, or a liquid crystal polymer resin, etc.

The above-described inner resin layer, metal thin film and outer resinlayer may be formed in a plurality of layers of two layers or more,respectively, and any configuration known in the related art other thanthe above-described layers may be applied to the pouch film cover 10 ofthe present invention, without particular limitation thereof.

Sealing between the pouch film cover 10 and the plastic case 20 may beperformed by thermal fusion bonding in consideration of characteristicsof the used material, but it is not particularly limited thereto so longas it is within a range without departing from the purpose of thepresent invention.

Meanwhile, the inner resin layer contacting with the plastic case 20 forincreasing sealing properties therebetween may be made of the samematerial as the plastic case 20.

Plastic Case 20

The plastic case 20 houses the electrode assembly 30 in an inner spaceof the lithium secondary battery 40 of the present invention, andincludes a gas barrier layer.

As illustrated in FIG. 1, a conventional pouch type secondary battery 3is manufactured by a method including the processes of inserting anelectrode assembly 2 into a space formed by pouch film covers 1,injecting electrolyte therein and sealing the pouch film covers 1.However, when the battery has a thickness of 6 mm or more, cracks occurin the pouch due to a limitation on a forming depth of the pouch film ina structural aspect thereof. Accordingly, in order to solve thisproblem, the secondary battery 3 is manufactured by a method of adheringthe formed pouch film covers 1 so as to face each other, however thereis a structural limitation for increasing a capacity of the battery inunit cells due to the limitation on the forming depth of the pouch film.

Therefore, in the present invention, a space capable of containing theelectrode assembly 30 is formed by the plastic case 20 including the gasbarrier layer, and the electrode assembly 30 is housed in the space, andthen the space is covered with the pouch film cover 10 and is sealed bythe thermal fusion bonding. Thereby, since there is no actual limitationon a form to be formed in an aspect of characteristics of the plasticmaterial, it is possible to achieve a secondary battery with nolimitation on the thickness thereof. Accordingly, it is possible toachieve a high-capacity secondary battery that could not be achieved bythe conventional secondary battery, such that the energy density of thelithium secondary battery may be increased.

Meanwhile, since most plastic materials are permeable, when using theplastic material as an exterior material of the battery, there may be aproblem entailed in long-term durability. Therefore, the lithiumsecondary battery 40 of the present invention is configured in such away that the plastic case 20 includes the gas barrier layer, and therebyresistance to permeability may be secured, and an inlet and outlet of agas between an inside and outside of the battery may be prevented so asto provide long-term durability.

In addition, since the secondary battery of the present invention ismanufactured without a process of forming the pouch as in the relatedart, it is possible to improved productivity upon manufacturing due to adecrease in an occurrence of poor insulation.

Types of the material for forming the plastic case 20 according to thepresent invention are not particularly limited, but as a particularexample, may include at least one selected from a group consisting ofpolyethylene, polypropylene, polyethylene terephthalate and polyethylenenaphthalate, which are preferable in terms of securing the moldingworkability, sealing properties and insulation properties.

In the present invention, it is possible to achieve a battery having alarge thickness by adjusting a shape of the plastic case 20 according tothe present invention. In this regard, a processing method of theplastic case 20 is not particularly limited, but an injection moldingmethod is preferably used in an aspect of the form of a battery case.

The gas barrier layer according to the present invention is notparticularly limited, but as a particular example, may include at leastone selected from a group consisting of ethylene-vinyl alcoholcopolymer; polyvinylidene chloride; polyvinyl alcohol; nylon; polyamide;polyacrylonitrile, linear low-density polyethylene, ethylene-vinylalcohol copolymer, and ionomer copolymer; a metal film; a coating layermade of at least one selected from a group consisting of silica,alumina, rubber, metal, glass and amorphous carbon; and a film having acoating layer in which layered silicate nano particles are dispersed ina polyvinyl alcohol binder, which are preferable in terms of securingthe workability and resistance to permeability.

In one embodiment of the present invention, the gas barrier layer isformed on an inner surface of the plastic case 20, and may be located soas to contact with the electrode assembly 30 housed inside the plasticcase 20.

In another embodiment of the present invention, when the plastic case 20has a multi-layer structure including one or more plastic layers onupper and lower portions of the gas barrier layer, respectively, the gasbarrier layer is included as an inner layer of the plastic case 20. Moreparticularly, when the material of the plastic case 20 is polypropylene,it may be a multi-layer structure of polypropylene/gas barrierlayer/polypropylene which are sequentially stacked in this order.

Electrode Assembly 30

The electrode assembly 30 included in the lithium secondary battery 40of the present invention is known in the related art, and may have anyshape so long as it is within a range not departing from the purpose ofthe present invention. As a particular example, it may have the sameshape as the electrode assembly 30 to be described below, but it is notlimited thereto.

According to one embodiment of the present invention, the electrodeassembly 30 may have a shape in which a cathode plate, a separator, andan anode plate are disposed in this order to be wound in one direction,or a plurality of cathode plates, separators, and anode plates arestacked. Each of the cathode and anode plates may be electricallyconnected with a cathode tap and an anode tap, and in the cathode andanode plates, one end portion of the respective cathode and anode tapsmay protrude to an outside through a lead. The one end portion of theprotruded lead may be connected with an external terminal (notillustrated). Outer surfaces of the leads may be wound by an electrodetape, respectively, in order to prevent an electrical short circuitbetween a body and cover of the case and the leads at a portioncontacting with an outer portion.

The lithium secondary battery 40 according to the present invention maybe applied to medium and large size battery modules or battery packs tobe used as a unit cell. The medium and large size battery modules orbattery packs may be used as a power source for medium and large sizedevices such as one or more of an electric vehicle (EV) including ahybrid electric vehicle (HEV), a plug-in hybrid electric vehicle (PHEV);an electric truck; an electric bus & truck; and an energy storagesystem.

The medium and large size battery modules are configured in such a waythat a plurality of unit cells are connected with each other in a seriesmanner or series/parallel manner to provide a high capacity, which areknown in the related art, and therefore will not described in detail inthe present disclosure.

Lithium Secondary Battery Sub Module 60

The present invention also provides the lithium secondary battery submodule 60 which includes the lithium secondary batteries of the presentinvention disposed on both sides of a heat radiation plate 50, whereinthe lithium secondary batteries 40 are disposed so that the pouch filmcovers 10 face the heat radiation plate 50.

The lithium secondary battery sub module 60 of the present inventionincludes the heat radiation plate 50 between the unit lithium secondarybatteries 40 so as to absorb and radiate heat generated inside thebattery to the outside. The heat radiation plate 50 may be made ofaluminum, copper, or the like, but it is not particularly limitedthereto.

The above-described lithium secondary batteries 40 of the presentinvention are disposed on both sides of the heat radiation plate 50. Inthis case, as described above, the lithium secondary batteries 40 aredisposed so that the pouch film covers 10 face the heat radiation plate50.

The conventional secondary battery sub module using the pouch type unitlithium secondary battery needs a separate cell cover for protecting thepouch type secondary battery on the outside of the module. However, thelithium secondary battery sub module according to the present inventiondoes not need a separate cell cover, because the plastic cases 20 aredisposed on the outside of the module.

Accordingly, the lithium secondary battery sub module 60 of the presentinvention has a higher energy density than the conventional secondarybattery sub module including the lithium secondary battery, as well asmay achieve a compact shape due to excluding a separate cell cover orpanel part by a stiffness of the plastic case 20, and thereby haseconomic advantages due to the reduction of manufacturing costs.

DESCRIPTION OF REFERENCE NUMERALS

1, 10: pouch film cover

20: plastic case

2, 30: electrode assembly

3, 40: lithium secondary battery

50: heat radiation plate

60: lithium secondary battery sub module

What is claimed is:
 1. A lithium secondary battery comprising: anelectrode assembly; a plastic case which houses the electrode assemblyand includes a gas barrier layer; and a pouch film cover which seals theplastic case having the electrode assembly housed therein.
 2. Thelithium secondary battery according to claim 1, wherein the plastic caseis made of at least one selected from a group consisting ofpolyethylene, polypropylene, polyethylene terephthalate and polyethylenenaphthalate.
 3. The lithium secondary battery according to claim 1,wherein the plastic case is injection mold.
 4. The lithium secondarybattery according to claim 1, wherein the gas barrier layer includes atleast one selected from a group consisting of ethylene-vinyl alcoholcopolymer; polyvinylidene chloride; polyvinyl alcohol; nylon; polyamide;polyacrylonitrile, linear low-density polyethylene, ethylene-vinylalcohol copolymer, and ionomer copolymer; a metal film; a coating layermade of at least one selected from a group consisting of silica,alumina, rubber, metal, glass and amorphous carbon; and a film having acoating layer in which layered silicate nano particles are dispersed ina polyvinyl alcohol binder.
 5. The lithium secondary battery accordingto claim 1, wherein the gas barrier layer is formed on an inner surfaceof the plastic case.
 6. The lithium secondary battery according to claim1, wherein the plastic case is formed in a plurality of layers, and thegas barrier layer is included in an inner layer of the plastic case. 7.The lithium secondary battery according to claim 1, wherein the pouchfilm cover is a stacked film including an inner resin layer, a metalthin film and an outer resin layer.
 8. The lithium secondary batteryaccording to claim 1, wherein the inner resin layer contacting with theplastic case of the pouch film cover is made of the same material as theplastic case.
 9. A lithium secondary battery sub module comprising: aheat radiation plate; and the lithium secondary batteries according toclaim 1, which are respectively disposed on both side of the heatradiation plate, wherein the respective lithium secondary batteries aredisposed so that the pouch film covers face the heat radiation plate.10. A lithium secondary battery sub module comprising: a heat radiationplate; and the lithium secondary batteries according to claim 2, whichare respectively disposed on both side of the heat radiation plate,wherein the respective lithium secondary batteries are disposed so thatthe pouch film covers face the heat radiation plate.
 11. A lithiumsecondary battery sub module comprising: a heat radiation plate; and thelithium secondary batteries according to claim 3, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.
 12. A lithium secondarybattery sub module comprising: a heat radiation plate; and the lithiumsecondary batteries according to claim 4, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.
 13. A lithium secondarybattery sub module comprising: a heat radiation plate; and the lithiumsecondary batteries according to claim 5, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.
 14. A lithium secondarybattery sub module comprising: a heat radiation plate; and the lithiumsecondary batteries according to claim 6, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.
 15. A lithium secondarybattery sub module comprising: a heat radiation plate; and the lithiumsecondary batteries according to claim 7, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.
 16. A lithium secondarybattery sub module comprising: a heat radiation plate; and the lithiumsecondary batteries according to claim 8, which are respectivelydisposed on both side of the heat radiation plate, wherein therespective lithium secondary batteries are disposed so that the pouchfilm covers face the heat radiation plate.